DE102008000382A1 - Offshore-foundation's e.g. monopole foundation, vertical misalignment correction method for wind energy plant, involves rotating one of partial units around connection surface perpendicular to axis until adjustment of mast is achieved - Google Patents

Abstract

The method involves measuring vertical misalignment of a foundation of a wind energy plant. Two partial units (A, B) of a direction correction unit are rotated around connection surfaces (1, 2) until a buckling is produced above the foundation in an area between the foundation and a resting mast, such that the mast is brought spatially into a reference adjustment. One of the partial units is rotated around a connection surface (6) that is perpendicular to a foundation axis until the reference adjustment of the mast is achieved.

Description

Technical area

The The invention relates to the compensation of misalignments of the foundations of wind turbines (WEA).

State of the art

at Wind turbines often there is the problem of the tower in vertical Direction to align when the foundation was built wrong. In the field of offshore foundations This problem occurs due to the extreme environmental conditions Place (wind, waves) and the associated logistical problems especially common on.

at Monopilegründungen (a steel pipe rammed into the ground) is currently an unwanted slant between the mast and the rammed pile by a so-called Grout connection balanced. For a Grout connection Two steel tubes with different diameters intermesh plugged and aligned. Subsequently, the gap potted with a special grout material around the pipes to positively connect. This type of connection is relatively expensive and not readjusted.

at other foundation variants such as B. Jacket foundations (spatial Steel grid construction) or heavyweight foundations made of concrete are the However, unintentional misalignments can not be easily compensated. Therefore, these founding variants with quite a lot of effort tries to align the foundation exactly so the tower of the WEA later is just standing. It would be possibly Here, too, a Grout connection between founding and mast feasible, however would be the effort enormously and economically uninteresting. A correction of later misalignments, z. B. by foundations, would also be here with a Grout connection impossible.

Object of the invention

Of the The invention is therefore based on the object, a method for Direction correction and one design element for all foundation structures to create which unscheduled misalignments the foundation can balance so that the mast mounted thereon in the desired direction (usually vertical) and no further vertical alignment required is. The inventive direction correction element should also be readjusted even at a later date Allow time.

Presentation of the invention

The The object is achieved by the features specified in the characterizing part of the claims.

An essential feature of the invention is, by turning two elements A and B about a common connecting surface ( 1 . 2 ), which is not perpendicular to the axis of the elements, to be able to adjust a kink between the elements in the desired size.

Is the slope of the interface 1 of the element A to the vertical of the element axis is equal to n and the inclination of the connecting surface 2 of the element B to the vertical of the element axis m, then can be by twisting the two elements around the common connection surface 1 set an angle between 0 and (n + m), as needed.

In order to align a wind energy mast in the desired position (usually vertical), it is necessary for the general case that at least two connecting surfaces ( 1 . 2 ) and ( 5 respectively. 6 ) available. This means that you have a (crooked) foundation, connected to, via a connecting surface 6 , followed by a correction element, in turn, connected via a connection surface 5 that follows Mast.

The correction element according to the invention has in its simplest form as an intermediate piece between the mast and foundation at least one oblique connection surface ( 1 . 2 ) to the mast or foundation. By rotation about this inclined connecting surface then an adjustable bend between the intermediate piece and the foundation or between the intermediate piece and the mast is generated, which can compensate for an inclination of the foundation.

Is the first interface ( 6 ) perpendicular to the foundation mast axis (ie in the language "horizontal"), so this serves, without changing the angle between the mast axis and the foundation axis, for aligning the orientation of the bend on the second connection surface ( 1 . 2 ).

Is the first interface ( 6 In contrast, it also obliquely, it also generates in the general twisting a kink, which in the correction of the misalignment of the foundation at the second interface ( 1 . 2 ) must be taken into account.

The according to the invention executed as an intermediate piece correction element can also consist of several, preferably directly superimposed, sub-elements exist that over each other slope and horizontal or just oblique connection surfaces in contact with each other.

Such an element is z. In 1 illustrated for the example of mast tubes. By turning the connecting surface a "desired kink" is generated, which corrects the unwanted skewing of the foundation. With the help of several kinks, larger inclinations can be continuously compensated over a greater length, if desired.

The beveled elements or oblique connection surfaces consist z. B. from planned obliquely mounted on a mast end of the ring flanges (inside or outside), which have a slope n with respect to the usual "horizontal" Ringflanschlage (perpendicular to the tube axis). As a result of the mutual rotation of the mast elements (eg pipes) by the angle α from 0 ° to ± 180 ° about the connection plane inclined relative to the mast axis by n, all inclinations between 0 ( 2 ) and 2 · n ( 3 ). The direction of the bend to the foundation is set in a further adjustment by twisting the entire direction correction element to its connection to the foundation. This rotation preferably takes place about a plane (eg flange) which is perpendicular to the axis of the skewed foundation mast.

The section a non-perpendicular to the tube extending plane with a Circular tube gives an ellipse. The ring flange connection in top This example is therefore also elliptical.

In 4 is shown schematically (greatly exaggerated) the mutual rotation of the ellipses. At low inclinations of the rotation plane (eg ring flanges) compared to the usual position (perpendicular to the mast axis), this elliptical effect is negligible! At an inclination of n = 2%, for example, the length of the major axis of the ellipse is only 0.02% larger than that of the small main axis! With an assumed pipe diameter of 500 cm, the deviation is smaller than 1 mm! The ring flanges can therefore be made as usual inexpensive as circles. It must be compensated in this case, therefore only 0.5 mm per side, which z. B. following the pipe (weld) can be done.

Great inclinations the ring flanges are also possible but then there must be a bigger difference between small and big Main axis of the ellipse be balanced. Can not do this anymore at the weld between the pipe and flange are compensated, so must Ring flanges are made as ellipses. A balance between the mutually twisted ellipses (in extreme cases 90 °) could then z. B. compensated by the hole play of the screws in the flanges become.

at the formation of the ring flanges as a circle (small inclinations) is Furthermore the use of fitting screws possible.

The Direction correction element can thus all direction-independent misalignment up Balance 2 · n and is universal for all foundation variants used. Even in the case of rehabilitation of subsequent foundation misalignments the element will be used. For this purpose, the direction correction element preferably before the refurbishment case in the tower of the wind turbine install.

The The invention therefore provides a safe, cost-effective and time-saving solution Problems dar. In addition, the installation effort of the foundations be reduced because of larger tolerances permissible are.

Instead of a two-part directional correction element between foundation and It is also possible to install the mast to use only a single element, which has a "horizontal" connection surface at the foundation, the is perpendicular to the axis of the element and via a connecting surface to the about that located mast, opposite the perpendicular to the axis is inclined by n. In this case, but must Mast on its interface to the correction element also via a slope interface feature, to create a correction kink! Are masts on her Bottom of the front equipped with such an oblique connection surface, Saves the direction correction element two expensive flanges! That makes it rewarding, the weird interface by default to provide for all masts from the outset, even if the creation is exceptional should stand sufficiently straight.

The Figures show a schematic representation of the invention. Shown is the example of a direction correction element of two composite Individual elements. The inclinations are exaggerated for better illustration shown. Also the ellipticity the level of connection between the two individual elements is greatly exaggerated, to better represent the mutual angle of rotation.

1 shows spaced apart a lower element A and an upper element B, which together form a direction correction element when they are set against each other rotatably with their against their axis by the angle n inclined surfaces F _A and F _B against each other.

The flanges are shown outside for better illustration. But are preferred internal flanges whose Verschraubun conditions are accessible from the interior of the tube.

2 shows this state before a rotation, so that the axes of the individual elements A and B are still parallel to each other. The kink is 0.

3 shows the state of maximum possible directional correction, in which the two individual elements have been rotated 180 degrees around their connecting surfaces. This results in a kink of 2n.

4 shows in section through the connecting surface of A and B, the general case of rotation of the (strongly propelled illustrated) ellipses by an angle α.

5 shows still the case in which the correction element consists only of two wedge-shaped washers between the two flanges of foundation and mast. If the flange on the mast is inclined, even a wedge-shaped washer is sufficient.

The oblique screw connections through the flanges must in the cases of 5 but u. U. offset between the screw head and flange and / or nut and flange by means.

A

subelement A of the direction correction element

B

subelement B of the direction correction element

1

around n with respect to the perpendicular to the axis 3 inclined connecting surface of partial element A to partial element B (executed here as outer flange)

2

around n with respect to the perpendicular to the axis 4 inclined connecting surface of sub-element B to sub-element A (executed here as outer flange)

3

axis of subelement A

4

axis of subelement B

5

Interface of Subelement A to the above located remainder mast

6

Interface of Subelement B for foundation underneath

7

wedge-shaped washer

α

Angle of rotation of the axes of the elliptical surfaces 1 and 2 to each other

n

Inclination of the connecting surfaces 1 and 2 against the perpendicular to the axis of the respective sub-element

Claims (2)

A method for correcting the misalignment of the formation of a wind turbine during the construction of the same by generating one or more creases above the foundation in an area between foundation and in Sollage aligned remainder characterized in that a.) The misalignment is measured, b.) Two elements A and B which inclined surfaces inclined to their axis 1 and 2 as long as their common interface ( 1 . 2 ) are rotated until a kink is formed which is so large that it brings the mast later in the desired orientation, wherein c.) The lower of the elements about its perpendicular to the foundation axis connecting surface ( 6 ) is turned so strong until it reaches the target orientation of the mast. Method for correcting the misalignment of the foundation of a wind turbine during the construction of the same by generating one or more creases above the foundation in a region between foundation and in Sollage aligned remainder characterized in that a.) The misalignment is measured, b.) Two elements A and B which inclined surfaces inclined to their axis 1 and 2 as long as their common interface ( 1 . 2 ) are rotated until a kink occurs, wherein c.) The lower of the elements also to create a kink about an oblique to the vertical axis of the foundation connecting surface ( 6 ) is turned so strong until the two kinks together correct the misalignment of the foundation and bring the mast in target orientation.